Chinese translation for "离子转运"
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- ion transport
Related Translations:
转运蛋白: translocatortransport protein 转运港: port of transhipmentport of transshipmenttranshipment port 转运体: abc transportersabcnissert 准许转运: tra hipment to be allowedtranshipment to be allowed 蛋白质转运: protein transporttranslocation of a protein 无限制转运: unlimited transhipment {= ut; u.t 转运时间: t/t time of transhipment
- Example Sentences:
| 1. | Digitalis glycosides are potent inhibitors of a fundamental and vital ion transport process, common to most cells . 洋地黄强心甙类是大多数细胞共有的基本和重要离子转运过程的强效抑制剂。 | | 2. | These results show that wnk kinases may interact with the ion channels and regulate the ion transportation thus cause hypertension 说明wnk激酶和离子转运通道相作用,调控离子转运,与高血压病的发生相关。 | | 3. | It showed by immunofluorescence that wnk1 protein was located within several epithelial involved in cl flux which meant it could regulate cl transportation in several tissues 免疫荧光表明wnk1激酶位于多种和氯离子内流相关的上皮中,表明它在多种组织中参与氯离子转运的调控。 | | 4. | It is chloride - dependent and all the abnormalities can be corrected by thiazide diuretics which is the specific antagonist of the na - cl cotransporter ( ncct ) . all these indicate that the disease should be relative to the ion transportation 它以高血压,高血钾和代谢性酸中毒为主要临床表现,它是氯依赖性的,临床异常能够被钠-氯共转子ncct的特异性拮抗剂? ?双氢克尿噻纠正,说明此疾病的发生和离子转运相关。 | | 5. | These proteins involved in various cellular functions including carbohydrate transport and metabolism , energy production and conversion , inorganic ion transport and metabolism , amino acid transport and metabolism , posttranslational modification , protein turnover , chaperones , function unknown and not in cog most of the proteins identified are involved in energy production and conversion , carbohydrate and amino acid transport and metabolism , especially in energy production and conversion 这些蛋白质在细胞中行使不同的功能,主要包括: 1 .糖类转运与代谢: 2 .能量的产生与转化; 3 .无机离子转运与代谢: 4 .氨基酸转运与代谢; 5 .翻译后修饰,蛋白代谢,分子伴侣: 6 .一些未知功能的蛋白等。在鉴定的13个蛋白中大多数是与糖类和氨基酸转运及代谢和能量的产生与转化相关。 | | 6. | In this paper , we summarized the research advances on the gene cloning , sequence and structure analysis , function identification , expression and regulation of the ion transporting proteins and focused on their functions in the process of absorption , distribution and translocation of nitrogen , phosphorus , potassium and other nutrients in arabidopsis thaliana 文中综述了拟南芥中养分离子转运蛋白在基因克隆、序列与结构分析、功能鉴定、表达与调控方面的研究进展,其中著重讨论了这些转运蛋白在氮、磷和钾等营养元素吸收、运输、分配中的作用。 | | 7. | Abstract : plant responses to salt stress via a complex mechanism , including sensing and transducing the stress signal , activating the transcription factors and the corresponding metabolizing genes . since the whole mechanism is still unclear , this review emphasize the biochemical events during the plant adaptation to salt stress referring to an index of importance : the homeostasis in cytoplasm , the biosynthesis of osmolytes and the transport of water . most of these biochemical events were elucidated by study of halophyte and salt - sensitive mutations , also many important genes involved were cloned and used to generate stress - tolerance phenotypes in transgenic plants . on the other hand , about the molecular mechanism in signal transduction , the research of arabidopsis mutations and yeast functional complementation provided helpful traces but not full pathway 摘要植物对盐胁迫的耐受反应是个复杂的过程,在分子水平上它包括对外界盐信号的感应和传递,特异转录因子的激活和下游控制生理生化应答的效应基因的表达.在生化应答中,本文着重讨论负责维持和重建离子平衡的膜转运蛋白、渗调剂的生物合成和功能及水分控制.这些生理生化应答最终使得液泡中离子浓度升高和渗调剂在胞质中积累.近年来,通过对各种盐生植物或盐敏感突变株的研究,阐明了许多盐应答的离子转运途径、水通道和物种特异的渗调剂代谢途径,克隆了其相关基因并能在转基因淡水植物中产生耐盐表型;另一方面,在拟南芥突变体及利用酵母盐敏感突变株功能互补筛选得到一些编码信号传递蛋白的基因,这些都有助于阐明植物盐胁迫应答的分子机制。 |
- Similar Words:
- "离子注入氧化物" Chinese translation, "离子注入用掩蔽工序" Chinese translation, "离子注入杂质" Chinese translation, "离子专属性电极" Chinese translation, "离子转移" Chinese translation, "离子撞击" Chinese translation, "离子状态" Chinese translation, "离子总量" Chinese translation, "离子总浓度" Chinese translation
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